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Thorium Fuel Has Proliferation Risk
Capt.Albatross writes "Thorium has attracted interest as a potentially safer fuel for nuclear power generation. In part, this has been because of the absence of a route to nuclear weapons, but a group of British scientists have identified a path that leads to uranium-233 via protactinium-233 from irradiated thorium. The protactinium separation could possibly be done with standard lab equipment, which would allow it to be done covertly, and deliver the minimum of U233 required for a weapon in less than a year. The full article is in Nature, but paywalled."
"The full article is in Nature, but paywalled."
Well, then there is no risk of proliferation.
If global climate change is going to be as bad as some people are saying, then it makes sense to just use the damn thorium. We've been dealing with nuclear weapons for more than 70 years.
Still seems lower than the traditional route. And (FTA) instead of using a special facility to directly bombard/convert the thorium into fissible U233 in a short time, they just let the stuff sit for a month and decay into U233 naturally. And the article states that using the wait-to-decay method, theres also fewer/less radiotoxic byproduct, so it seems like a cheaper/safer method to start with.
They still turn it into U233, the bomb stuff. just a difference in timescale, facility and method. So there was always a weapon risk.
the whole "low prolfieration" thing just came from theoretically being able to spot the facilities doing the converting...though I think leaving the stuff sitting around and waiting for it to decay would also be theoretically somewhat simple to detect.
All in all, it seems like waiting for it to decay naturally is better, unless the ratio of fissible material is significantly worse, sufficient to outweigh the fewer toxic byproducts thing..
The guy who said the election was rigged won the presidency with the second-most votes.
If the UK gets the U-233 bomb, next thing you know they will be threatening their rich, oil producing neighbor Norway. Norway will restart heavy water production for their nuclear program. France will increase their stockpiles (and make more nuclear weapons). The Germans will opt for chemical weapons. Belgium, the Netherlands, and Luxembourg will offer Russia and the US military bases.
And god forbid if the Irish get ahold of a nuke covertly from the British! They'll turn Iceland into a burnt wasteland.
Time to freeze British financial transactions until they give up their nuclear research. Time to end the menace before it all gets out of control.
The world is made by those who show up for the job.
that should have been
The US detonated a U-233 bomb in Operation Teapot "MET" in 1955. The U-233 was bred from thorium.
there was always a weapons risk, cause the thorium still goes to U233. The idea they couldnt make bombs from it wasnt really that they couldnt make bombs, but that they couldnt HIDE that they were doing it cause of the facilities needed to convert the thorium into fuel (in theory....in reality, how hard is it to bury construction). The ratio of source to fuel is still pretty high though (233:1 !!), so you still need lots of room to store it while it decays naturally. Seems like you'd still want to bury it/hide it (leaving construction tell tales) as just leaving it in a random warehouse to decay would be easily detectable by any radiological sniffers.
So really not much changes with this new information. Except for the fat that letting it decay naturally has fewer toxic byproducts, which seems like a win regardless.
The guy who said the election was rigged won the presidency with the second-most votes.
News for nerds, stuff that matters. Not news for zealots, stuff that might matter.
Mind you, they occasionally fail at the former, but this isn't one of those cases. It's news for nerds, and it matters.
If you beer isn't nausea-inducing you're not drinking enough... or it's just flavoured water.
Guessing you're American it's probably the latter.
And how very dare you call us mostly harmless!!? Where's my pen...
This is all pretty standard and well known. It still takes hot cells and an operating reactor to do.
And, there is nothing in it that can't be done right now regardless if there are thorium fueled reactors or not. The irradiation of the thorium can be done in existing research reactors. Thorium metal is available (it's used to increase emission in electrical filaments and in the mantles of camping lanterns).
This seems mostly to be FUD.
Read TFA.
Most U-233 that comes out of a reactor is formed by protactinium-233 decay.
While U-232 and U-233 are nearly impossible to separate (which is why Thorium has been considered to be proliferation-resistant), protactinium-233 is very easy to separate chemically, and leads to nearly pure U-233.
retrorocket.o not found, launch anyway?
We need to stop bothering about proliferation risks and get concerned about cheap and safe generation of power. Thorium research is useful because it is more plentiful than Uranium in this planet. That is about it. Because of so called proliferation risks nuclear recycling research has been stuck since the 1970s. For all we know we could be separating all the waste with laser separation and burning the actinides in a high temperature nuclear reactor by now. We don't do it because laser separation technology also enables easier separation of Plutonium from the spent fuel for nuclear weapons. Instead the people who want the Plutonium have to use more polluting chemical separation methods such as PUREX. This insanity needs to stop. If the country already has nuclear weapons in its possession why do we need to bother with such concerns? We only reduced nuclear weapon stockpiles due to bilateral treaties. Lack of further technological development is not an obstacle to producing more nuclear weapons for an industrialized nation.
News for nerds, stuff that matters. Not news for zealots, stuff that might matter.
Mind you, they occasionally fail at the former, but this isn't one of those cases. It's news for nerds, and it matters.
Yeah, that whole science thing. Not for nerds - amirite?
U233 created in a thorium reactor will be poisoned with U232 at about 0.4 percent (very dependent on design, but this is an good example of the kind of mix you will see). Even if you segment the protactinium, you are still going to have some U232 in the mix. This can not be chemically separated, and separating the isotopes of something that is hot borders on the insane. U232 has a decay chain that emits a 2.9 MeV gamma ray, and its pretty hot as far as how fast it will decay (Half life of 69 years if I remember right). It decays to Th-228 and in like 2 years into Ti-208 + nasty gamma. Very nasty stuff that will really ruin your day, and any electronics in your nuclear weapon in a hurry. You would be stupid to pick this as a nuclear fuel for a weapon, when you could just make plutonium like anyone with any sense would do. You just put some natural uranium in neutron flux of a light water reactor, wait a month or so, and separate the plutonium. Simple well known technology that works, not some crazy possibility that some PhD dreamed up because he wants to prove a point. Sure you could do it, if your an idiot who wants to make your life really hard and you have a death wish.
Also if you are running a thorium breeder reactor you are running so close to break even on neutrons so if you remove Uranium from the cycle your ability to maintain reactor criticality will disappear. Also you have the same problem if you try and use the neutron flux to make plutonium it wouldn't work. Thorium reactors are shitty for making bombs, that is why we don't have them even though they are awesome technology that would solve so many energy problems. Thorium has little risk of being used to make bombs, and if someone is idiotic enough to do it they will die of gamma poisoning way before they have enough fuel for bombs.
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